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RETRACTED: Hybrid Thermal-Chemical Enhanced Oil Recovery Methods; An Experimental Study for Tight Reservoirs

Xiaoyong Hu, Moutao Li, Chenggen Peng, Afshin Davarpanah

2020Symmetry44 citationsDOIOpen Access PDF

Abstract

It is essential to have an adequate understanding of the fluid-structure in a porous medium since this gives direct information about the processes necessary to extract the liquid and the likely yield. The concept of symmetry is one of the petroleum engineering issues that has been used to provide an analytical analysis for modeling fluid dynamics through porous media, which can be beneficial to validate the experimental field data. Tight reservoirs regarding their unique reservoir characterization have always been considered as a challenging issue in the petroleum industries. In this paper, different injectivity scenarios which included chemical and thermal methods were taken into consideration to compare the efficiency of each method on the oil recovery enhancement. According to the results of this experiment, the recovery factor for foams and brine injection is about 80%, while it is relatively 66% and 58% for brine-carbon dioxide and brine-nitrogen, respectively. Consequently, foam injection after water flooding would be an effective method to produce more oil volumes in tight reservoirs. Moreover, KCl regarding its more considerable wettability changes has provided more oil production rather than other scenarios.

Topics & Concepts

Petroleum engineeringBrinePorous mediumWater floodingEnhanced oil recoveryEnvironmental sciencePetroleumThermalMaterials sciencePorosityGeologyChemistryThermodynamicsComposite materialPhysicsOrganic chemistryPaleontologyEnhanced Oil Recovery TechniquesHydrocarbon exploration and reservoir analysisPetroleum Processing and Analysis
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